private boolean processRange(KitTable kitTable, KitGear optionInfo, String range) { if (isEmpty(range) || hasIllegalSeparator(',', range)) { return false; } ParsingSeparator sep = new ParsingSeparator(range, ','); String minString = sep.next(); String maxString; if (sep.hasNext()) { maxString = sep.next(); } else { maxString = range; } if (sep.hasNext()) { return false; } Formula min = FormulaFactory.getFormulaFor(minString); if (!min.isValid()) { Logging.errorPrint("Min Formula in " + getTokenName() + " was not valid: " + min.toString()); return false; } Formula max = FormulaFactory.getFormulaFor(maxString); if (!max.isValid()) { Logging.errorPrint("Max Formula in " + getTokenName() + " was not valid: " + max.toString()); return false; } kitTable.addGear(optionInfo, min, max); return true; }
public String[] unparse(LoadContext context, EquipmentModifier mod) { Formula f = context.getObjectContext().getFormula(mod, FormulaKey.BASECOST); if (f == null) { return null; } return new String[] {f.toString()}; }
@Override protected ParseResult parseNonEmptyToken(LoadContext context, CDOMObject obj, String value) { ParsingSeparator sep = new ParsingSeparator(value, '|'); String activeValue = sep.next(); Formula count; if (!sep.hasNext()) { count = FormulaFactory.ONE; } else { count = FormulaFactory.getFormulaFor(activeValue); if (!count.isValid()) { return new ParseResult.Fail( "Count in " + getTokenName() + " was not valid: " + count.toString()); } if (count.isStatic() && count.resolve(null, "").doubleValue() <= 0) { return new ParseResult.Fail("Count in " + getFullName() + " must be > 0"); } activeValue = sep.next(); } if (sep.hasNext()) { return new ParseResult.Fail(getFullName() + " had too many pipe separated items: " + value); } ParseResult pr = checkSeparatorsAndNonEmpty(',', activeValue); if (!pr.passed()) { return pr; } List<CDOMReference<Language>> refs = new ArrayList<CDOMReference<Language>>(); StringTokenizer tok = new StringTokenizer(activeValue, Constants.COMMA); while (tok.hasMoreTokens()) { String tokText = tok.nextToken(); CDOMReference<Language> lang = TokenUtilities.getReference(context, LANGUAGE_CLASS, tokText); if (lang == null) { return new ParseResult.Fail( " Error was encountered while parsing " + getFullName() + ": " + value + " had an invalid reference: " + tokText); } refs.add(lang); } ReferenceChoiceSet<Language> rcs = new ReferenceChoiceSet<Language>(refs); if (!rcs.getGroupingState().isValid()) { return new ParseResult.Fail( "Non-sensical " + getFullName() + ": Contains ANY and a specific reference: " + value); } ChoiceSet<Language> cs = new ChoiceSet<Language>(getTokenName(), rcs); cs.setTitle("Language Choice"); PersistentTransitionChoice<Language> tc = new ConcretePersistentTransitionChoice<Language>(cs, count); context.getObjectContext().addToList(obj, ListKey.ADD, tc); tc.setChoiceActor(this); return ParseResult.SUCCESS; }
@Override protected ParseResult parseNonEmptyToken(LoadContext context, BaseKit kit, String value) { ParsingSeparator pipeSep = new ParsingSeparator(value, '|'); pipeSep.addGroupingPair('[', ']'); pipeSep.addGroupingPair('(', ')'); while (pipeSep.hasNext()) { String subTok = pipeSep.next(); if (subTok.length() == 0) { return new ParseResult.Fail( getTokenName() + " arguments has invalid pipe separator: " + value, context); } ParseResult pr = checkForIllegalSeparator(',', subTok); if (!pr.passed()) { return pr; } ParsingSeparator commaSep = new ParsingSeparator(subTok, ','); commaSep.addGroupingPair('[', ']'); commaSep.addGroupingPair('(', ')'); String minString = commaSep.next(); String maxString; if (commaSep.hasNext()) { maxString = commaSep.next(); } else { maxString = subTok; } if (commaSep.hasNext()) { return new ParseResult.Fail("Token cannot have more than one separator ','", context); } Formula min = FormulaFactory.getFormulaFor(minString); if (!min.isValid()) { return new ParseResult.Fail( "Min Formula in " + getTokenName() + " was not valid: " + min.toString(), context); } Formula max = FormulaFactory.getFormulaFor(maxString); if (!max.isValid()) { return new ParseResult.Fail( "Max Formula in " + getTokenName() + " was not valid: " + max.toString(), context); } kit.setOptionBounds(min, max); } return ParseResult.SUCCESS; }
@Override protected ParseResult parseNonEmptyToken( LoadContext context, EquipmentModifier mod, String value) { Formula formula = FormulaFactory.getFormulaFor(value); if (!formula.isValid()) { return new ParseResult.Fail( "Formula in " + getTokenName() + " was not valid: " + formula.toString()); } context.getObjectContext().put(mod, FormulaKey.BASECOST, formula); return ParseResult.SUCCESS; }
@Override protected ParseResult parseTokenWithSeparator(LoadContext context, PCClass pcc, String value) { StringTokenizer tok = new StringTokenizer(value, Constants.PIPE); Formula count = FormulaFactory.getFormulaFor(tok.nextToken()); if (!count.isValid()) { return new ParseResult.Fail( "Count in " + getTokenName() + " was not valid: " + count.toString(), context); } if (!count.isStatic() || count.resolveStatic().intValue() <= 0) { return new ParseResult.Fail("Count in " + getTokenName() + " must be > 0", context); } if (!tok.hasMoreTokens()) { return new ParseResult.Fail( getTokenName() + " must have a | separating " + "count from the list of possible values: " + value, context); } List<CDOMReference<ClassSkillList>> refs = new ArrayList<>(); while (tok.hasMoreTokens()) { String token = tok.nextToken(); CDOMReference<ClassSkillList> ref; if (Constants.LST_ALL.equals(token)) { ref = context.getReferenceContext().getCDOMAllReference(SKILLLIST_CLASS); } else { ref = context.getReferenceContext().getCDOMReference(SKILLLIST_CLASS, token); } refs.add(ref); } ReferenceChoiceSet<ClassSkillList> rcs = new ReferenceChoiceSet<>(refs); if (!rcs.getGroupingState().isValid()) { return new ParseResult.Fail( "Non-sensical " + getTokenName() + ": Contains ANY and a specific reference: " + value); } ChoiceSet<ClassSkillList> cs = new ChoiceSet<>(getTokenName(), rcs); cs.setTitle("Select class whose class-skills this class will inherit"); TransitionChoice<ClassSkillList> tc = new ConcreteTransitionChoice<>(cs, count); context.getObjectContext().put(pcc, ObjectKey.SKILLLIST_CHOICE, tc); tc.setRequired(false); return ParseResult.SUCCESS; }
@Override protected ParseResult parseNonEmptyToken(LoadContext context, CDOMObject obj, String value) { AbilityCategory category = AbilityCategory.FEAT; Nature nature = Nature.NORMAL; ParsingSeparator sep = new ParsingSeparator(value, '|'); String activeValue = sep.next(); Formula count; if (!sep.hasNext()) { count = FormulaFactory.ONE; } else { count = FormulaFactory.getFormulaFor(activeValue); if (!count.isValid()) { return new ParseResult.Fail( "Count in " + getTokenName() + " was not valid: " + count.toString(), context); } if (!count.isValid()) { return new ParseResult.Fail( "Count in " + getTokenName() + " was not valid: " + count.toString(), context); } if (count.isStatic() && count.resolveStatic().doubleValue() <= 0) { return new ParseResult.Fail("Count in " + getFullName() + " must be > 0", context); } activeValue = sep.next(); } if (sep.hasNext()) { return new ParseResult.Fail( getFullName() + " had too many pipe separated items: " + value, context); } if (isEmpty(activeValue) || hasIllegalSeparator(',', activeValue)) { return ParseResult.INTERNAL_ERROR; } List<CDOMReference<Ability>> refs = new ArrayList<CDOMReference<Ability>>(); List<PrimitiveChoiceSet<CategorizedAbilitySelection>> pcs = new ArrayList<PrimitiveChoiceSet<CategorizedAbilitySelection>>(); ParsingSeparator tok = new ParsingSeparator(activeValue, ','); boolean foundAny = false; boolean foundOther = false; ReferenceManufacturer<Ability> rm = context.ref.getManufacturer(ABILITY_CLASS, AbilityCategory.FEAT); while (tok.hasNext()) { CDOMReference<Ability> ab = null; String token = tok.next(); if (Constants.LST_CHOICE.equals(token) || Constants.LST_ANY.equals(token)) { foundAny = true; ab = rm.getAllReference(); } else if (token.startsWith("CLASS.") || token.startsWith("CLASS=")) { String className = token.substring(6); if (className.length() == 0) { return new ParseResult.Fail( getTokenName() + " must have Class name after " + token, context); } CDOMSingleRef<PCClass> pcc = context.ref.getCDOMReference(PCCLASS_CLASS, className); AbilityFromClassChoiceSet acs = new AbilityFromClassChoiceSet(pcc); pcs.add(acs); } else { foundOther = true; ab = TokenUtilities.getTypeOrPrimitive(rm, token); if (ab == null) { return new ParseResult.Fail( " Error was encountered while parsing " + getTokenName() + ": " + value + " had an invalid reference: " + token, context); } } if (ab != null) { refs.add(ab); } } if (foundAny && foundOther) { return new ParseResult.Fail( "Non-sensical " + getFullName() + ": Contains ANY and a specific reference: " + value, context); } if (!refs.isEmpty()) { AbilityRefChoiceSet rcs = new AbilityRefChoiceSet(category, refs, nature); pcs.add(rcs); } if (pcs.isEmpty()) { return new ParseResult.Fail( "Internal Error: " + getFullName() + " did not have any references: " + value, context); } PrimitiveChoiceSet<CategorizedAbilitySelection> ascs; if (pcs.size() == 1) { ascs = pcs.get(0); } else { ascs = new CompoundOrChoiceSet<CategorizedAbilitySelection>(pcs, Constants.COMMA); } ChoiceSet<CategorizedAbilitySelection> cs = new ChoiceSet<CategorizedAbilitySelection>(getTokenName(), ascs, true); cs.setTitle("Select for removal"); PersistentTransitionChoice<CategorizedAbilitySelection> tc = new ConcretePersistentTransitionChoice<CategorizedAbilitySelection>(cs, count); context.getObjectContext().addToList(obj, ListKey.REMOVE, tc); tc.allowStack(true); tc.setChoiceActor(this); return ParseResult.SUCCESS; }